JP3679845B2 - Remote control system for electroacoustic devices - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a remote control system for an electroacoustic apparatus capable of controlling an electroacoustic apparatus such as an amplifier or a graphic equalizer from a position away from the electroacoustic apparatus.
[0002]
[Prior art]
Conventionally, there is a system as shown in FIG. 4, for example, as described above. The system shown in FIG. 1 is configured such that an operation device 1 can remotely control an electroacoustic device, for example, an amplifier main body 2 located at a position away from the operation device 1. These are connected to each other by a remote control cable 103 dedicated to this system. The remote control cable 103 is connected to remote control terminals 11 and 21 provided in the operating device 1 and the amplifier main body 2, respectively.
[0003]
By the way, the amplifier main body 2 amplifies an audio signal input from an external sound source such as a microphone or a cassette tape recorder (not shown) by a built-in buffer amplifier 22 and a power amplifier 23, and outputs this to a speaker (not shown). is there. The amplification factor (speaker volume adjustment) for the audio signal can be varied by the variable resistor 24 provided in the amplifier main body 2. According to this system, the variable resistor The controller 24 can be remotely controlled from the controller device 1 such as variable operation (speaker volume adjustment). Below, the case where the variable operation of the variable resistor 24 in the amplifier main body 2 is remotely controlled by the operating device 1 will be described, for example, so that the volume of the speaker is minimized (−∞).
[0004]
That is, the controller device 1 has a central processing unit (hereinafter referred to as a CPU) 12, and the amplifier main body is configured to minimize the volume of the speaker from the operation unit, for example, the keyboard 13 with respect to the CPU 12. An operation command for changing the variable resistor 24 in 2 is given. In accordance with this operation command, the CPU 12 outputs control data corresponding thereto, and this control data is output from the remote control terminal 11 via an input / output interface (hereinafter referred to as I / O) 14. The control data output from the remote control terminal 11 is transmitted to the amplifier main body 2 through the remote control cable 103 and supplied into the amplifier main body 2 via the remote control terminal 11 of the amplifier main body 2.
[0005]
The amplifier main body 2 also includes an I / O 25 and a CPU 26 as in the operation device 1. The control data supplied into the amplifier main body 2 via the remote control terminal 21 is input to the CPU 26 via the I / O 25. The CPU 26 varies the variable resistor 24 so as to minimize the volume of the speaker according to the input control data (specifically, the control data is decoded and based on the decoding result). Thereby, the volume of the speaker is minimized, that is, remote control for adjusting the volume of the speaker is performed.
[0006]
When the control data is supplied from the controller device 1 side, the CPU 26 in the amplifier main body 2 sends a confirmation signal indicating that the control data has been received to the controller device 1 side, more specifically in the controller device 1 side. It transmits to CPU12. The CPU 12 in the controller device 1 receives the confirmation signal, thereby confirming that the control data is surely received on the amplifier body 2 side, and receives the confirmation signal and then receives the next control data. Prepare to transmit to the amplifier body 2 side. That is, data transmission is performed between the controller device 1 and the amplifier body 2 by an asynchronous confirmation method (handshake method), thereby improving the reliability of remote control. Note that the confirmation signal output from the CPU 26 in the amplifier main body 2 also includes the I / O 25 in the amplifier main body 2, the remote control terminal 21, the remote control cable 103, and the remote control terminal 11 and I / O on the operating device 1 side. Needless to say, it is supplied to the CPU 12 in the controller device 1 via O14.
[0007]
In addition, the controller device 1 is provided with a display unit, for example, a display (CRT) 15. When the CPU 12 receives the confirmation signal, the display 15 displays a message indicating this. Has been. As a result, the operator who operates the controller device 1 can confirm that the control data is surely received on the amplifier body 2 side. The operations of the CPUs 12 and 26 described above are controlled based on a program stored in a storage unit (not shown) provided in the controller device 1 and the amplifier main body 2, respectively. And RAM.
[0008]
[Problems to be solved by the invention]
However, in the prior art shown in FIG. 4, as described above, the controller device 1 and the amplifier main body 2 are connected by the dedicated remote control cable 103. Therefore, in order to configure this remote control system, The remote control cable 103 needs to be laid. Therefore, the installation work of the remote control cable 103 is required, and the cost for the operation is also increased. In particular, as the distance between the operation device 1 and the amplifier main body 2 is increased, the operation of the remote control cable 103 is reduced in terms of work and cost. There is a problem that laying becomes difficult.
[0009]
Even when the distance between the operation device 1 and the amplifier main body 2 is not so far as described above, when either the operation device 1 or the amplifier main body 2 is moved to another place, Accordingly, there is a problem that the remote control cable 103 has to be laid again.
[0010]
Therefore, the present invention aims to solve the above problem by connecting the operating device 1 and the amplifier main body 2 by a public telephone line instead of the remote control cable 103.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 of the present invention includes an operating device for outputting control data in accordance with an operation command given from the outside, and the control provided at a position away from the operating device. An electroacoustic apparatus, which is controlled so as to process an audio signal according to data and output the processed audio signal to a speaker, is connected to a general telephone line, and the control data is transmitted through the telephone line. Is. Furthermore, the electroacoustic device detects a controlled result of the electroacoustic device itself based on the control data, and outputs a detection signal corresponding to the controlled result, and a microphone that collects sound output from the speaker; Transmitting means for time-division multiplexing the detection data corresponding to the detection signal and the monitor signal output from the microphone and transmitting the result to the operating device via a telephone line. Then, the operating device outputs a control result of the electroacoustic device in accordance with the separating means for separating the detection data and the monitor signal transmitted via the telephone line, and the detection data separated by the separating means. Output means, and monitor means for outputting a sound corresponding to the monitor signal separated by the separation means from a monitor speaker, Is.
[0012]
The invention described in claim 2 An operation device that outputs control data according to an operation command given from the outside, and a control that is provided at a position away from the operation device and that processes the audio signal according to the control data and outputs the processed audio signal to the speaker The electroacoustic apparatus is connected by a general telephone line, and the control data is transmitted through the telephone line. Furthermore, the electroacoustic device detects a controlled result of the electroacoustic device itself based on the control data and outputs a detection signal corresponding to the controlled result; and a means for outputting detection data corresponding to the detection signal; , A microphone that picks up the sound output from the speaker, and when the detection data is output, the detection data is transmitted to the controller via the telephone line, and when the detection data is not output, it is output from the microphone. Transmitting means for transmitting the monitor signal to be transmitted to the operating device via a telephone line. Then, the operation device identifies whether the detection data or the monitor signal is transmitted via the output means, the monitor means, and the telephone line, and if it is the detection data, the detection data Identification means for supplying the monitor signal to the monitor means when the signal is a monitor signal, and the output means indicates the controlled result of the electroacoustic device in accordance with the supplied detection data. And the monitor means outputs a sound corresponding to the supplied monitor signal from the monitor speaker. Is.
[0013]
That is, In these inventions, The controlled result of the electroacoustic device itself based on the control data transmitted from the operating device can be detected (confirmed) by the output of the output means on the operating device side.
[0015]
And The sound output from the speaker on the electroacoustic device side can be confirmed (monitored) by the sound output from the monitor speaker on the operation device side.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of a remote control system for an electroacoustic apparatus according to the present invention will be described with reference to FIG. The system shown in the figure is configured so that the electroacoustic device, for example, the amplifier main body 2 located at a position away from the operating device 1 can be remotely controlled by the operating device 1 as in the prior art shown in FIG. Is. However, the system shown in FIG. 1 uses a general telephone line (also called a public telephone line or an exchange line) 3 to connect the operation device 1 and the amplifier body 2, and this telephone line. 3 is configured to perform data transmission via the communication terminal 3, and this point is greatly different from the above-described conventional technique using the dedicated remote control cable 103.
[0017]
In the system shown in FIG. 1, in order to enable data transmission using the telephone line 3, the remote control terminals 11 and 21 of the operating device 1 and the amplifier body 2 are respectively connected to the modem 31 and It is connected to the telephone line 3 via 32. Further, the controller device 1 and the amplifier main body 2 are normally in a disconnected state, that is, when the amplifier main body 2 is controlled by the controller device 1, the amplifier main body 2 (modem 32) is called from the controller device 1, Thus, the above-described control can be performed only after the controller device 1 and the amplifier body 2 are connected. Since the configuration other than this is the same as that of the above-described conventional technology, the same reference numerals are given to the equivalent parts, and the detailed description thereof is omitted.
[0018]
That is, it is assumed that the controller device 1 and the amplifier main body 2 are in a disconnected state now. From this state, a case where the variable operation of the variable resistor 24 in the amplifier main body 2 is remotely controlled by the operating device 1 so as to minimize the volume of the speaker connected to the amplifier main body 2 will be described.
[0019]
First, in the operation device 1, when an operation command for calling (dialing) the modem 32 on the amplifier main body 2 side is given from the keyboard (operation unit) 13 to the CPU 12, the CPU 12 side of the amplifier main body 2 according to the operation command. The modem 32 is called. The modem 32 on the amplifier main body 2 side transmits a call display (CI) signal indicating that this call is being made to the CPU 26 in the amplifier main body 2, and the CPU 26 receives the call display and then receives the data. Preparation for reception is performed, and thereafter, connection operation with the modem 32 is started. As a result, the modem 32 responds to the call, that is, the controller device 1 and the amplifier main body 2 are connected, and data transmission (transmission / reception) is performed between the CPU 12 in the controller device 1 and the CPU 26 in the amplifier main body 2. ) Is possible.
[0020]
Then, in a state where the controller device 1 and the amplifier body 2 are connected as described above, the variable resistor in the amplifier body 2 so as to minimize the volume of the speaker from the keyboard 13 of the controller device 1 to the CPU 12. An operation command for changing 24 is given. The CPU 12 outputs control data corresponding to this operation command. This control data is output from the remote control terminal 11 via the I / O 14, modulated (converted into an analog signal) in the modem 31, and then transmitted to the amplifier body 2 side through the telephone line 3. Then, the signal is demodulated (converted into a digital signal) by the modem 32 on the amplifier body 2 side and supplied to the amplifier body 2 through the remote control terminal 21.
[0021]
The control data supplied into the amplifier main body 2 is input to the CPU 26 via the I / O 25. The CPU 26 varies the variable resistor 24 so as to minimize the volume of the speaker according to the input control data (specifically, the control data is decoded and based on the decoding result). Thereby, the volume of the speaker is minimized, that is, remote control of the amplifier main body 2 from the operating device 1 via the telephone line 3 is realized.
[0022]
In the system shown in FIG. 1 as well, data transmission is performed by the asynchronous confirmation method, as in the above-described prior art. That is, when the CPU 26 on the amplifier body 2 side receives the control data from the controller device 1 side, the CPU 26 on the controller device 1 side transmits a confirmation signal indicating the control data to the controller device 1 side. After that, it is configured to prepare for transmitting the next control data to the amplifier body 2 side. The transmission (transmission / reception) of the confirmation signal is also supplied from the CPU 26 on the amplifier body 2 side to the modem 32 via the remote control terminal 21 and the I / O 25, and is modulated (converted into an analog signal) here. The signal is transmitted to the modem 31 on the controller device 1 through the telephone line 3, demodulated (converted into a digital signal), and then supplied to the CPU 12 in the controller device 1 via the remote control terminal 11 and the I / O 14. And when CPU12 by the side of the operating device 1 receives the said confirmation signal, the message which shows that is displayed on the display 15 similarly to the said prior art.
[0023]
When the remote control is to be ended, an operation command indicating that is given from the keyboard 13 of the controller device 1 to the CPU 12, so that the CPU 12 in the controller device 1 and the CPU 26 on the amplifier body 2 side are connected. Data transmission similar to that described above is performed, whereby the remote control is disconnected and the remote control is terminated. A program for controlling the calling / called operation and the remote control (call) end operation between the CPUs 12 and 26 is stored in the storage unit described above.
[0024]
As described above, according to the first embodiment, since the controller device 1 and the amplifier main body 2 are connected by the general telephone line 3, the dedicated device is used as in the prior art shown in FIG. There is no need to lay the remote control cable 103. Therefore, the system can be easily configured regardless of the distance between the controller device 1 and the amplifier body 2. Further, even when either the controller device 1 or the amplifier main body 2 is moved to another location, the system can be easily reconfigured as long as the telephone line 3 is laid in advance at the destination location. be able to.
[0025]
In the first embodiment, the case where the operation device 1 remotely controls the variable resistor 24 for adjusting the volume in the amplifier main body 2 has been described. However, the present invention is not limited to this, and the variable resistor for adjusting the timbre is used. This technique may also be applied to control of other functions such as controlling the amplifier and controlling the power ON / OFF operation of the amplifier body 2. Further, this technique may be applied not only to the amplifier body 2 but also to other electroacoustic devices such as a graphic equalizer and an audio switch.
[0026]
Further, a plurality of amplifier main bodies (electroacoustic devices) 2 may be provided for one operating device 1 so that an arbitrary amplifier main body 2 can be called and remotely controlled by the one operating device 1. Good. Conversely, a plurality of operation devices 1 may be provided for one amplifier main body 2 so that the one amplifier main body 2 can be called from any operation device 1 and remotely controlled. Further, a plurality of both the operation device 1 and the amplifier main body 2 may be provided so that the arbitrary amplifier main body 2 can be called from the arbitrary operation device 1 and remotely controlled. In addition, when providing a plurality of electroacoustic apparatuses, you may provide not only the amplifier main body 2 but other apparatuses, such as the above-mentioned graphic equalizer and an audio switch, in mixture.
[0027]
Further, when the operation device 1 calls the amplifier body 2 (modem 32) and the operation device 1 and the amplifier body 2 are connected, a message indicating this is displayed on the display 15 of the operation device 1. You may comprise as follows. With this configuration, the operator can indicate on the display 15 that the operating device 1 and the amplifier main body 2 are connected, that is, the operational device 1 can control the amplifier main body 2. Can be confirmed.
[0028]
In this system, data transmission is performed between the controller device 1 and the amplifier body 2 by the asynchronous confirmation method. However, the present invention is not limited to this, and other methods such as a synchronous non-confirmation method that does not transmit / receive confirmation signals, Data transmission may be performed based on the transmission method.
[0029]
Further, the modems 31 and 32 may be structured so as to be built in the operating device 1 and the amplifier main body 2, respectively.
[0030]
Next, a second embodiment according to the present invention will be described with reference to FIG. As shown in the figure, this remote control system is provided with a detector (sensor) 27 for the amplifier body 2 of the system shown in FIG. The detector 27 detects, for example, the variable state of the variable resistor 24 and outputs a detection signal corresponding to the variable state, and is configured such that the CPU 26 can read (access) the detection signal. . Then, the CPU 26 transmits detection data corresponding to the detection signal to the controller device 1, and the controller device 1 is configured to display the variable state of the variable resistor 24 on the display 15 according to the detection data. Yes. Since the configuration other than this is the same as that shown in FIG. 1, the same parts are denoted by the same reference numerals, and detailed description thereof is omitted.
[0031]
That is, as in the first embodiment described above, for example, when the variable resistor 24 in the amplifier main body 2 is remotely controlled from the operating device 1 so as to minimize the volume of the speaker, it is transmitted from the operating device 1 side. The CPU 26 in the amplifier body 2 that has received the control data variably controls the variable resistor 24 according to the control data, and then reads the detection signal output from the detector 27. Detection data corresponding to this detection signal is output from the remote control terminal 21 via the I / O 25, that is, transmitted to the controller device 1 through the modem 32, the telephone line 3, and the modem 31.
[0032]
On the controller device 1 side that receives the detection data, the detection data is input to the CPU 12 via the remote control terminal 11 and the I / O 14. In accordance with the input detection data (specifically, the detection data is decoded and based on the decoding result), the CPU 12 changes the variable resistor 24 so that the variable resistor 24 minimizes the volume of the speaker. The change is displayed on the display 15 by characters or images (graphics). Therefore, on the operating device 1 side, the controlled result of the variable resistor 24 in the amplifier body 2 can be confirmed by the display on the display 15.
[0033]
The detector 27 provided in the amplifier body 2 corresponds to the detection means described in the claims. To do. Further, the display 15 on the operation device 1 side and the CPU 12 configured (programmed) on the display 15 to display characters or images corresponding to the detection data are output means according to claims. Corresponding to
[0034]
As described above, according to the second embodiment, it is possible to grasp the controlled result of the amplifier main body 2 on the controller device 1 side, so that the reliability of the remote control in this system is the asynchronous confirmation described above. There is an effect of improvement as compared with the case of only the method. In particular, when the distance between the operation device 1 and the amplifier main body 2 is a long distance, it is difficult for the operator to actually confirm the controlled state of the amplifier main body 2 with eyes, and thus the above effect is very high. It is valid.
[0035]
In the second embodiment, only the detector 27 that detects the variable state of the variable resistor 24 in the amplifier body 2 has been described. However, the present invention is not limited to this, and for example, a variable resistor for tone adjustment is used. A detector to detect, a detector to detect the power ON / OFF operation of the amplifier body 2, etc. are provided, and a message corresponding to the output of these detectors is displayed on the display 15 on the operation device 1 side. May be. Moreover, you may comprise so that the to-be-controlled state of the said amplifier main body 2 may be represented not only with this display 15 but with a simple display, such as LED and a pilot lamp, for example.
[0036]
In addition, the controlled state of the amplifier main body 2 is not expressed using display (visible) means such as the display 15, but a speaker is used, for example, and the amplifier main body 2 is controlled by sound output from the speaker. You may comprise so that a control state may be represented.
[0037]
The system shown in FIG. 3 shows a third embodiment according to the present invention. This system listens (monitors) the sound output from the speaker 41 connected to the amplifier main body 2 on the operation device 1 side in the system shown in FIG. 2 (system of the second embodiment) described above. It is configured to be able to.
[0038]
That is, in this system, a microphone amplifier 43 that collects (monitors) the sound of the speaker 41 with a microphone 42 and amplifies a so-called monitor signal output from the microphone 42 to a predetermined level is provided. The monitor signal amplified by the microphone amplifier 43 is coupled to the telephone line 3 by the coupler 44.
[0039]
The coupler 44 is disposed between the remote control terminal 21 of the amplifier body 2 and the modem 32, and encodes (digitizes) the monitor signal supplied via the microphone amplifier 43 and The monitor signal is time-division multiplexed with the detection data output from the CPU 26 in the amplifier main body 2 and supplied to the modem 32. The modem 32 modulates the data supplied from the coupler 44 (converts it into an analog signal), and then transmits it to the modem 31 on the controller device 1 side through the telephone line 3. It should be noted that the combiner 44 uses a voice data compression technique (a compression technique for suppressing data quality deterioration due to quantization noise in the transmission of voice data) that is generally used when the monitor signal is encoded. Based on this, the monitor signal is compressed, and the compressed monitor signal is encoded.
[0040]
On the other hand, on the operating device 1 side, a distributor 51 is provided between the remote control terminal 11 and the modem 31, and data transmitted from the modem 31 on the amplifier body 2 side is demodulated by the modem 31 ( After being digitized), it is supplied to the distributor 51. The distributor 51 separates the data supplied from the modem 31 into the detection data and the encoded monitor signal, and supplies the detection data into the controller device 1 via the remote control terminal 11. On the other hand, the monitor signal is converted into an analog signal, and the monitor signal converted into the analog signal is further based on an expansion technique having completely opposite characteristics to the compression technique in the coupler 44 on the amplifier body 2 side. After the expansion, it is configured to be supplied to the monitor speaker 53 via the power amplifier 52. The monitor speaker 53 is provided in the vicinity of the controller device 1 and outputs sound when the monitor signal is supplied.
[0041]
The third embodiment In The configuration of the distributor 51, the power amplifier 52, and the monitor speaker 53 on the operating device 1 side corresponds to the monitor means described in the claims.
[0042]
As described above, according to the third embodiment, since the sound output from the speaker 41 on the amplifier body 2 side can be heard (monitored) on the controller device 1 side, the amplifier body 2 is It is possible to confirm whether or not the sound according to the control is reliably output from the speaker 41, that is, whether or not the amplifier main body 2 is operating normally, as well as being controlled reliably. Therefore, the reliability as the remote control system is significantly improved as compared with the systems in the first and second embodiments described above. In addition, since the operator who operates the operation device 1 can feel the presence on the amplifier body 2 side while staying on the operation device 1 side, the operability of the operation device 1 is further improved.
[0043]
In the third embodiment, the microphone amplifier 43 that amplifies the monitor signal output from the microphone 42 is provided. However, when there is no need to amplify the monitor signal, the microphone amplifier 43 is provided. It does not have to be provided. Similarly, a power amplifier 52 for amplifying the monitor signal obtained by distribution by the distributor 51 is provided on the controller device 1 side, but this is also provided when it is not particularly necessary to amplify the monitor signal. It does not have to be.
[0044]
In this embodiment, on the amplifier body 2 side, the monitor signal is encoded by the coupler 44, and the encoded monitor signal and detection data are time-division multiplexed and transmitted to the controller device 1 side. On the first side, the data transmitted from the amplifier main body 2 side is separated into the detection data and the monitor signal by the distributor 51. However, the present invention is not limited to this. For example, the following configuration may be adopted. .
[0045]
That is, on the amplifier body 2 side, the coupler 44 always detects whether or not detection data is output from the CPU 26 in the amplifier body 2. The detection data is transmitted to the controller device 1 when the detection data is output, and the monitor signal from the microphone 42 is transmitted to the controller device 1 when the detection data is not output. The device 44 is configured. In the case of transmitting a monitor signal, a signal converted into a digital signal in the coupler 44 may be transmitted in the same manner as described above, or the monitor signal may be transmitted as an analog signal without being converted into a digital signal. May be configured to transmit.
[0046]
On the other hand, on the controller device 1 side, the distributor 51 identifies whether the data transmitted from the amplifier body 2 side is detection data or a monitor signal. When the data is detected data, it is supplied to the controller device 1, and when it is a monitor signal, it is supplied to the monitor speaker 53 via the power amplifier 52. 51 is constituted.
[0047]
With this configuration, the monitor device on the operation device 1 side is used except when the CPU 26 in the amplifier body 2 outputs detection data, that is, when the amplifier body 2 is remotely controlled from the operation device 1. The sound output from the speaker 41 on the amplifier body 2 side can be heard (monitored) by the speaker 53.
[0048]
【The invention's effect】
This invention The operation device and the electroacoustic device are connected by a general telephone line. Therefore, unlike the prior art shown in FIG. 4 described above, it is not necessary to lay a dedicated remote control cable 103, so that the system can be easily configured regardless of the distance between the operation device and the electroacoustic device. effective. In addition, even when either the operation device or the electroacoustic device is moved to another location, the system can be easily moved as long as a telephone line is laid in advance at the destination location. There is an effect that it can be configured.
[0049]
Also, The control result of the electroacoustic device itself based on the control data transmitted from the operation device can be confirmed on the operation device side. In other words, since the operation device side can grasp the controlled result of the electroacoustic device, the reliability of the remote control in this system is further improved compared to the case of the asynchronous confirmation method in the prior art described above. There is. In particular, when the distance between the operation device and the electroacoustic device is a long distance, it is difficult for the operator who operates the operation device to actually confirm the controlled state of the electroacoustic device with the operator's own eyes. This effect is very effective.
[0050]
further, The sound output from the speaker on the electroacoustic device side can be monitored by the monitoring speaker on the operation device side. That is, it is possible not only to confirm that the electroacoustic device is controlled reliably, but also to check whether the controlled sound is reliably output from the speaker, that is, the operation of the electroacoustic device. The state can be confirmed on the operating device side. Therefore , Distant There is an effect that the reliability as the remote control system is improved. In addition, since the operator who operates the operating device can feel the presence on the electroacoustic device side while staying on the operating device side, The operation device There is also an effect that it becomes easy to operate.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing a first embodiment of a remote control system for an electroacoustic apparatus according to the present invention.
FIG. 2 is a schematic configuration diagram showing a second embodiment according to the invention.
FIG. 3 is a schematic configuration diagram showing a third embodiment according to the invention.
FIG. 4 is a schematic configuration diagram showing an example of a conventional remote control system for an electroacoustic apparatus.
[Explanation of symbols]
1 Operation device
2 Amplifier body (electroacoustic device)
3 Public telephone line
11, 21 Remote control terminal
12, 26 Central processing unit (CPU)
13 Keyboard (operation unit)
14, 25 Input / output interface (I / O)
15 Display (display part)
22 Buffer amplifier
23 Power Amplifier
24 Variable resistor
31, 32 modem

Claims (2)

An operating device for outputting control data in accordance with an operation command given from the outside;
A telephone line for transmitting the control data;
A remote control terminal provided at a position remote from the operation device and connected to the telephone line is processed according to the control data supplied via the remote control terminal, and the processed audio signal An electroacoustic device controlled to output to a speaker;
Comprising
The electroacoustic apparatus includes a detection unit that detects a controlled result of the electroacoustic apparatus itself based on the control data and outputs a detection signal corresponding to the controlled result, and a microphone that collects sound output from the speaker. And transmission means for time-division-multiplexing the detection data corresponding to the detection signal and the monitor signal output from the microphone and transmitting to the operation device via the telephone line,
The operation device includes a separation unit that separates the detection data transmitted from the telephone line and the monitor signal, and a control target of the electroacoustic device according to the detection data separated by the separation unit. Output means for outputting a result; and monitor means for outputting a sound corresponding to the monitor signal separated by the separation means from a monitor speaker;
Remote control system for electroacoustic devices. An operating device for outputting control data in accordance with an operation command given from the outside;
A telephone line for transmitting the control data;
A remote control terminal provided at a position remote from the operation device and connected to the telephone line is processed according to the control data supplied via the remote control terminal, and the processed audio signal An electroacoustic device controlled to output to a speaker;
Comprising
The electroacoustic apparatus detects a controlled result of the electroacoustic apparatus itself based on the control data and outputs a detection signal corresponding to the controlled result, and a means for outputting detection data corresponding to the detection signal A microphone that picks up sound output from the speaker, and when the detection data is output, the detection data is transmitted to the operation device via the telephone line, and the detection data is output. When there is not, it comprises a transmission means for transmitting the monitor signal output from the microphone to the operating device via the telephone line,
The operation device identifies whether the detection data or the monitor signal is transmitted via the output means, the monitor means, and the telephone line. Identification means for supplying the detection data to the output means and supplying the monitor signal to the monitor means in the case of the monitor signal, the output means according to the supplied detection data. Outputting a controlled result of the electroacoustic device, and the monitor means outputs a sound corresponding to the supplied monitor signal from a monitor speaker;
Remote control system for electroacoustic devices.

Images